Effective Slow Dynamics Models for a Class of Dispersive Systems
Autor: | Dominik Zimmermann, Guido Schneider, Katharina Schratz, Simon Baumstark |
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Rok vydání: | 2019 |
Předmět: | |
Zdroj: | Journal of Dynamics and Differential Equations. 32:1867-1899 |
ISSN: | 1572-9222 1040-7294 |
Popis: | We consider dispersive systems of the form $$\begin{aligned} \partial _t U = \Lambda _U U + B_U(U,V) , \qquad \varepsilon \partial _t V = \Lambda _V V + B_V(U,U) \end{aligned}$$ in the singular limit $$ \varepsilon \rightarrow 0 $$ , where $$ \Lambda _U,\Lambda _V $$ are linear and $$ B_U,B_V $$ bilinear mappings. We are interested in deriving error estimates for the approximation obtained through the regular limit system $$\begin{aligned} \partial _t \psi _U = \Lambda _U \psi _U - B_U(\psi _U, \Lambda _V^{-1} B_V(\psi _U,\psi _U) ) \end{aligned}$$ from a more general point of view. Our abstract approximation theorem applies to a number of semilinear systems, such as the Dirac–Klein–Gordon system, the Klein–Gordon–Zakharov system, and a mean field polaron model. It extracts the common features of scattered results in the literature, but also gains an approximation result for the Dirac–Klein–Gordon system which has not been documented in the literature before. We explain that our abstract approximation theorem is sharp in the sense that there exists a quasilinear system of the same structure where the regular limit system makes wrong predictions. |
Databáze: | OpenAIRE |
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